电子亲合能

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在一般化学与原子物理学中，电子亲合能（或电子亲和势、电子亲和力，electron affinity，E_ea）的定义是，将单个电子结合到电中性的气态原子或分子上所释放的能量^[1]：

X(g) + e⁻ → X⁻(g) + E_ea

注意在此定义下，大多数元素原子的电子亲和能为正数，即结合电子的过程是放热的。这里定义的电子亲和能的正负号选取和一般热力学的定义相反。

在固态物理学之中，对于一表面的电子亲合能定义不同。

并非所有的元素的电子亲合能均为正，电子亲合能为正表示其 -1 价的离子需吸收能量才能变为电中性的原子（早期的教科书写有些元素，例如稀有气体，其电子亲合能为负，此说法并未被现代的化学家接受）。若其阴离子较不稳定，容易变成原子，则其电子亲合能较低。元素中氯的电子亲合能最高，汞和稀有气体等元素的电子亲合能都接近零。一般来说，非金属的电子亲合能都比金属高。

总的来说，同一周期从左至右，价壳层电子递增，使得原子稳定性上升，原子半径递减，对电子的吸引能力渐强，因而电子亲合能递增；同族元素从上到下，因原子半径的增大，而且总电子数增加，原子稳定性下降，元素电负性值递减。 实际上，随核电荷数递增或同族元素从上到下，电子亲和能的变化并不单调。

下列数据以kJ/mol为单位。带星号的元素在量子力学基态被认为有接近零的电子亲合能。

电子亲合能 E_ea 的定义也可以延伸到分子。如苯和萘的电子亲合能为负值，而蒽 、菲、芘的电子亲合能为正值。电脑模拟实验证实六氰基苯 C₆(CN)₆ 的电子亲合能较富勒烯要高。^[4]

• Koopmans' theorem
• One-electron reduction
• 游离能
• 电负性
• 价电子

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2. ^ ^{2.0 2.1 2.2 2.3} Bratsch, S.G.; Lagowski, J.J. Predicted stabilities of monatomic anions in water and liquid ammonia at 298.15 K.. Polyhedron. 1986, 5 (11): 1763–1770. doi:10.1016/S0277-5387(00)84854-8. 
3. ^ ^{3.0 3.1} 存档副本. [2019-12-28]. （原始内容存档于2020-02-03）. 
4. ^ Remarkable electron accepting properties of the simplest benzenoid cyanocarbons: hexacyanobenzene, octacyanonaphthalene and decacyanoanthracene Xiuhui Zhang, Qianshu Li, Justin B. Ingels, Andrew C. Simmonett, Steven E. Wheeler, Yaoming Xie, R. Bruce King, Henry F. Schaefer III and F. Albert Cotton Chemical Communications, 2006, 758 - 760 Abstract

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• Electron affinity （页面存档备份，存于互联网档案馆）, IUPAC 金色书的定义
• Article about Electron Affinity

本条目的部分内容翻译自英语维基百科条目Electron affinity并以知识共享-署名-相同方式共享4.0协议授权使用。原文作者列表请参阅其页面历史。